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use tea_core::prelude::*;
pub trait RollingValidNorm<T: IsNone>: Vec1View<T> {
#[no_out]
fn ts_vzscore<O: Vec1<U>, U>(
&self,
window: usize,
min_periods: Option<usize>,
out: Option<O::UninitRefMut<'_>>,
) -> O
where
T::Inner: Number,
f64: Cast<U>,
{
let mut sum = 0.;
let mut sum2 = 0.;
let mut n = 0;
let min_periods = min_periods.unwrap_or(window / 2).min(window);
self.rolling_apply(
window,
|v_rm, v| {
let res = if v.not_none() {
n += 1;
let v = v.unwrap().f64();
sum += v;
sum2 += v * v;
if n >= min_periods {
let n_f64 = n.f64();
let mut var = sum2 / n_f64;
let mean = sum / n_f64;
var -= mean.powi(2);
if var > EPS {
(v - mean) / (var * n_f64 / (n - 1).f64()).sqrt()
} else {
f64::NAN
}
} else {
f64::NAN
}
} else {
f64::NAN
};
if let Some(v) = v_rm {
if v.not_none() {
let v = v.unwrap().f64();
n -= 1;
sum -= v;
sum2 -= v * v
};
}
res.cast()
},
out,
)
}
#[no_out]
fn ts_vminmaxnorm<O: Vec1<U>, U>(
&self,
window: usize,
min_periods: Option<usize>,
out: Option<O::UninitRefMut<'_>>,
) -> O
where
T::Inner: Number,
f64: Cast<U>,
{
let mut max = T::Inner::min_();
let mut max_idx = 0;
let mut min = T::Inner::max_();
let mut min_idx = 0;
let mut n = 0;
let min_periods = min_periods.unwrap_or(window / 2).min(window);
self.rolling_apply_idx(
window,
|start, end, v| {
if let Some(start) = start {
match (max_idx < start, min_idx < start) {
(true, false) => {
// max value is invalid, find max value again
max = T::Inner::min_();
for i in start..end {
let v = unsafe { self.uget(i) };
if v.not_none() {
let v = v.unwrap();
if v >= max {
(max, max_idx) = (v, i);
}
}
}
},
(false, true) => {
// min value is invalid, find min value again
min = T::Inner::max_();
for i in start..end {
let v = unsafe { self.uget(i) };
if v.not_none() {
let v = v.unwrap();
if v <= min {
(min, min_idx) = (v, i);
}
}
}
},
(true, true) => {
// both max and min value are invalid, find max and min value again
(max, min) = (T::Inner::min_(), T::Inner::max_());
for i in start..end {
let v = unsafe { self.uget(i) };
if v.not_none() {
let v = v.unwrap();
if v >= max {
(max, max_idx) = (v, i);
}
if v <= min {
(min, min_idx) = (v, i);
}
}
}
},
(false, false) => (), // we don't need to find max and min value again
}
}
// check if end position is max or min value
let res = if v.not_none() {
n += 1;
let v = v.unwrap();
if v >= max {
(max, max_idx) = (v, end);
}
if v <= min {
(min, min_idx) = (v, end);
}
if (n >= min_periods) & (max != min) {
((v - min).f64() / (max - min).f64()).cast()
} else {
f64::NAN.cast()
}
} else {
f64::NAN.cast()
};
if let Some(start) = start {
let v = unsafe { self.uget(start) };
if v.not_none() {
n -= 1;
}
}
res
},
out,
)
}
}
impl<T: IsNone, I: Vec1View<T>> RollingValidNorm<T> for I {}
#[cfg(test)]
mod tests {
use tea_core::testing::assert_vec1d_equal_numeric;
use super::*;
#[test]
fn test_ts_zscore() {
let data = vec![1., 2., 3., f64::NAN, 5., 6., 7., f64::NAN, 9., 10.];
let res: Vec<f64> = data.ts_vzscore(4, None);
let expect = vec![
f64::NAN,
0.707107,
1.0,
f64::NAN,
1.091089,
0.872872,
1.0,
f64::NAN,
1.091089,
0.872872,
];
// assert_eq!(res, expect);
assert_vec1d_equal_numeric(&res, &expect, Some(1e-5))
}
}